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11.3 Other Patterns of Inheritance

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1 11.3 Other Patterns of Inheritance
Lesson Overview 11.3 Other Patterns of Inheritance Objectives: Describe the other inheritance patterns. Explain the relationship between genes and the environment.

2 Review of Sections 1 and 2 Genetics Dominance Gene Gametes Trait
Homozygous Allele Heterozygous True Breed Genotype Hybrid (Cross Breed) Phenotype P Generation Punnett Square F1, F2, … Independent Assortment

3 THINK ABOUT IT Mendel’s principles offer a set of rules with which to predict various patterns of inheritance. There are exceptions to every rule, and exceptions to the exceptions. What happens if one allele is not completely dominant over another? What if a gene has several alleles?

4 Beyond Dominant and Recessive Alleles
What are some exceptions to Mendel’s principles? Some alleles are neither dominant nor recessive. Many genes exist in several different forms, and are therefore said to have multiple alleles. Many traits are produced by the interaction of several genes.

5 Beyond Dominant and Recessive Alleles
Despite the importance of Mendel’s work, there are important exceptions to most of his principles. In most organisms, genetics is more complicated, because the majority of genes have more than two alleles. In addition, many important traits are controlled by more than one gene. Mendel’s principles alone cannot predict traits that are controlled by multiple alleles or multiple genes.

6 Incomplete Dominance A cross between two four o’clock plants shows a common exception to Mendel’s principles. The F1 generation produced by a cross between red-flowered (RR) and white-flowered (WW) plants consists of pink-colored flowers (RW), as shown.

7 Incomplete Dominance In this case, neither allele is dominant. Cases in which one allele is not completely dominant over another are called incomplete dominance. In incomplete dominance, the heterozygous phenotype lies somewhere between the two homozygous phenotypes.

8 Codominance Cases in which the phenotypes produced by both alleles are clearly expressed are called codominance. For example, in certain varieties of chicken, the allele for black feathers is codominant with the allele for white feathers. Heterozygous chickens have a color described as “erminette,” speckled with black and white feathers.

9 Multiple Alleles A single gene can have many possible alleles.
A gene with more than two alleles is said to have multiple alleles. Many genes have multiple alleles, including the human genes for blood type. This chart shows the percentage of the U.S. population that shares each blood group.

10 Polygenic Traits Traits controlled by two or more genes are said to be polygenic traits. Polygenic means “many genes.” Polygenic traits often show a wide range of phenotypes. The variety of skin color in humans comes about partly because more than four different genes probably control this trait.

11 Genes and the Environment
Does the environment have a role in how genes determine traits? Environmental conditions can affect gene expression and influence genetically determined traits.

12 Genes and the Environment
The characteristics of any organism are not determined solely by the genes that organism inherits. Genes provide a plan for development, but how that plan unfolds also depends on the environment. The phenotype of an organism is only partly determined by its genotype.

13 Genes and the Environment
For example, consider the Western white butterfly. Western white butterflies that hatch in the summer have different color patterns on their wings than those hatching in the spring. Scientific studies revealed that butterflies hatching in springtime had greater levels of pigment in their wings than those hatching in the summer. In other words, the environment in which the butterflies develop influences the expression of their genes for wing coloration.

14 Genes and the Environment
In order to fly effectively, the body temperature of the Western white butterfly needs to be 28–40°C. More pigmentation allows a butterfly to reach the warm body temperature faster. Similarly, in the hot summer months, less pigmentation prevents the butterflies from overheating.


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